03527nam 2200601Ia 450 991077700850332120230828224515.01-281-92787-29786611927875981-277-492-0(CKB)1000000000415334(DLC)2006299460(StDuBDS)AH24684559(SSID)ssj0000210799(PQKBManifestationID)11198242(PQKBTitleCode)TC0000210799(PQKBWorkID)10282695(PQKB)11298971(MiAaPQ)EBC1681295(WSP)00003432(Au-PeEL)EBL1681295(CaPaEBR)ebr10201170(CaONFJC)MIL192787(OCoLC)820942774(EXLCZ)99100000000041533420061004d2006 uy 0engur|||||||||||txtccrNew superconductors[electronic resource] from granular to high Tc /Guy DeutscherHackensack, New Jersey ;London World Scientificc20061 online resource (xxi, 222 p. ) illBibliographic Level Mode of Issuance: Monograph981-02-3089-3 Includes bibliographical references and index.1. Superfluidity. 1.1. The Landau critical velocity. 1.2. Origin of the condensate. 1.3. Phase of the condensate. 1.4. Two-Fermion superfluids. 1.5. BCS superconducting metals. 1.6. Summary. 1.7. Further reading -- 2. Coherence length, penetration depth and critical temperature. 2.1. Origin of the coherence length in superconducting metals. 2.2. Experimental methods for the determination of the coherence length. 2.3. Experimental results for the coherence length. 2.4. Penetration depth and critical temperature. 2.5. Further reading -- 3. The phase transition. 3.1. Free energies. 3.2. Fluctuations. 3.3. Condensation energies. 3.4. Summary. 3.5. Further reading -- 4. Phase diagrams. 4.1. Granular superconductors. 4.2. Phase diagram of the cuprates. 4.3. Summary. 4.4. Further reading -- 5. Gap, symmetry and pseudo-gap. 5.1. The BCS s-wave gap. 5.2. Gap symmetry in the cuprates. 5.3. Superconducting gap and pseudo-gap. 5.4. Summary. 5.5. Further reading -- 6. Basics on vortices. 6.1. Vortices and vortex matter. 6.2. The isolated vortex. 6.3. Formation of the vortex lattice. 6.4. Vortex motion. 6.5. Probing surface currents in d-wave superconductors. 6.6. Summary. 6.7. Further reading -- 7. Cuprate superconductors under strong fields. 7.1. Vortex lattice melting. 7.2. Experiments on vortex phase transitions. 7.3. Summary. 7.4. Further reading -- 8. From fundamentals to applications. 8.1. The need for high critical temperatures and fields. 8.2. High critical temperatures. 8.3. Upper critical fields. 8.4. Practical upper temperature for superconductivity. 8.5. Further reading -- 9. HTS conductors and their applications. 9.1. Grain boundaries. 9.2. First and second generation wires. 9.3. Further reading.Copper oxide superconductorsSuperconductorsHigh temperature superconductivityCopper oxide superconductors.Superconductors.High temperature superconductivity.537.623Deutscher Guy317756MiAaPQMiAaPQMiAaPQBOOK9910777008503321New superconductors3696499UNINA